CN212394663U - Cooking cup and cooking machine - Google Patents

Abstract

The application provides a cooking cup and cooking machine. A cooking cup comprises a cup body, a first crushing piece, a second crushing piece and a flow guide device. The flow guide device is positioned in a space enclosed by the cup body. The flow guide device is enclosed into a flow guide cavity. The first crushing piece is set to rotate to drive the food material to enter the flow guide cavity. The second crushing piece is set up to can further smash the edible material that flows from the water conservancy diversion chamber for cooking machine has the crushing effect of preferred.

Description

Cooking cup and cooking machine

Technical Field

The application relates to a small household electrical appliances field especially relates to cooking cup and cooking machine.

Background

With the increasing living standard of people, many different types of food processors appear on the market. The functions of the food processor mainly include, but are not limited to, functions of making soybean milk, squeezing fruit juice, making rice paste, mincing meat, shaving ice, making coffee and/or blending facial masks and the like. The food processor can comprise a soybean milk machine, a stirrer or a wall breaking food processor and other machines for crushing and stirring food. The food is smashed to relevant cooking machine use first rubbing crusher, and crushing effect is not good.

SUMMERY OF THE UTILITY MODEL

The application provides a cooking cup and cooking machine with effect is smashed to preferred.

The application provides a cooking cup, including cup, first crushing piece, the crushing piece of second and guiding device, guiding device is located in the space that the cup encloses, guiding device encloses into the water conservancy diversion chamber, and first crushing piece can drive when being set up to rotate and eat the material and get into the water conservancy diversion chamber, and the second crushing piece is set up to further smash the edible material of flowing from the water conservancy diversion chamber.

In some embodiments, above-mentioned technical scheme's cooking cup includes cup, first crushing piece, second crushing piece and guiding device, guiding device encloses into the water conservancy diversion chamber, and first crushing piece is set up to drive when rotating and eats the material and get into the water conservancy diversion chamber, and the second crushing piece is set up to the edible material that can further smash and get into the water conservancy diversion chamber for cooking machine has the crushing effect of preferred.

Further, the diversion cavity is located above the first crushing member.

In some embodiments, the diversion cavity of the above technical scheme is located above the first crushing member, and when the first crushing member rotates, the food material is facilitated to enter the diversion cavity.

Further, the distance between the diversion cavity and the first crushing member is less than or equal to 160 mm.

In some embodiments, the distance between the diversion cavity and the first crushing member is less than or equal to 160mm, so as to ensure that the fluid can rapidly enter the diversion cavity and has a better impact force, and ensure that the second crushing member is driven to work so as to grind or whip the food material.

Further, the distance between the diversion cavity and the first crushing member is more than or equal to 10mm and less than or equal to 60 mm.

In some embodiments, the distance between the diversion cavity and the first crushing member is greater than or equal to 10mm and less than or equal to 60mm, so as to ensure that the fluid can rapidly enter the diversion cavity and has a better impact force, and ensure that the second crushing member is driven to work to grind or whip the food material.

Further, arrange the cup and include the installed part, arrange the cup including assemble in the cup and assemble in the blade disc subassembly of cup, the installed part is fixed in the blade disc subassembly, the installed part is used for spacingly guiding device.

In some embodiments, the cooking cup of above technical scheme includes the installed part to spacing the guiding device better.

Further, arrange the cup and include the installed part, the installed part is fixed in the cup, the installed part is used for spacingly the guiding device.

Further, the installed part comprises a limiting part, and one end of the flow guide device is assembled into a space enclosed by the limiting part or one end of the flow guide device is assembled into a space enclosed by the limiting part and the cup body.

In some embodiments, one end of the diversion device in the above technical scheme is assembled into a space enclosed by the limiting part or a space enclosed by the limiting part and the cup body, and the diversion device can be pulled out, so that the diversion device is convenient to clean.

Further, the guiding device is fixed on the limiting part.

Further, the mounting member includes a blocking portion extending downward from the limiting portion, and the first crushing member includes a stirring blade, and the blocking portion is located in front of the diversion cavity in a rotation direction of the stirring blade.

In some embodiments, the mounting member of the above technical solution includes a blocking portion extending downward from the limiting portion, and the blocking portion is located in front of the diversion cavity along the rotation direction of the stirring blade to block the fluid, and when the stirring blade rotates, the fluid is driven to move, and the fluid passes through the blocking portion, and is impacted upward, thereby facilitating the fluid to enter the diversion cavity.

Further, arrange the cup including assemble in the cup of cup and assemble in the blade disc subassembly of cup, the stop part with the blade disc subassembly supports and holds.

In some embodiments, the blocking portion of the above technical scheme abuts against the cutter head assembly, so that the food material at the bottom can enter the diversion cavity to be further pulverized when being stirred.

Further, the blocking portion includes an abutting portion, and the abutting portion is arc-shaped.

In some embodiments, the blocking portion in the above technical scheme includes an abutting portion, and the abutting portion is arc-shaped and in surface contact with the cutter head assembly as much as possible, so that food materials at the bottom can enter the diversion cavity when being stirred and further crushed.

Further, the cooking cup comprises a blocking part, and the flow guide device is in press connection with the blocking part.

In some embodiments, above-mentioned technical scheme's cooking cup includes and blocks, the guiding device crimping in block, can ensure guiding device's assembled position, be favorable to the edible material to get into the water conservancy diversion chamber.

Further, the flow guide device is fixed on the wall of the cup body.

In some embodiments, the flow guiding device of the above technical scheme is fixed on the cup wall of the cup body, so that a mounting part is omitted, and the structure is simple.

Further, the first crushing piece comprises a stirring knife, and the rotating speed of the stirring knife is greater than or equal to 1000r/min and less than or equal to 40000 r/min.

In some embodiments, the rotation speed of the stirring knife in the above technical scheme is greater than or equal to 1000r/min and less than or equal to 40000r/min, so that when the stirring knife rotates, fluid has enough impact force, and can enter the diversion cavity and drive the second crushing piece to work, so as to grind or stir the food material; and the impact force of the fluid is utilized to drive the second crushing piece to work, so that the power source is saved, and the noise is reduced.

Furthermore, the rotating speed of the stirring knife is more than or equal to 2000r/min and less than or equal to 20000 r/min.

In some embodiments, the rotation speed of the stirring knife in the above technical solution is greater than or equal to 2000r/min and less than or equal to 20000r/min, so as to ensure that when the stirring knife rotates, fluid has enough impact force, and can enter the diversion cavity and drive the second crushing member to work, so as to grind or whip the food material; and the impact force of the fluid is utilized to drive the second crushing piece to work, so that the power source is saved, and the noise is reduced.

Further, the second crushing piece comprises a static grinding head and a movable grinding head, the static grinding head is at least partially assembled into the diversion cavity, the cooking cup comprises a cup cover assembled on the cup body, and the movable grinding head is assembled on the cup cover.

In some embodiments, the second crushing member of the above technical solution includes a static grinding head and a dynamic grinding head, and can grind the food material entering the diversion cavity.

Further, the rotating speed of the movable grinding head is more than or equal to 20r/min and less than or equal to 500 r/min.

In some embodiments, the rotating speed of the movable grinding head in the technical scheme is greater than or equal to 20r/min and less than or equal to 500r/min, so that the food material can be effectively ground, the service lives of the flow guide device and the second crushing piece can be prolonged, and the flow guide device or the second crushing piece is prevented from being damaged due to large impact caused by overhigh rotating speed.

Further, the rotating speed of the movable grinding head is greater than or equal to 100r/min and less than or equal to 200 r/min.

In some embodiments, the rotating speed of the movable grinding head in the technical scheme is greater than or equal to 100r/min and less than or equal to 200r/min, so that the food material can be effectively ground, the service lives of the flow guide device and the second crushing piece can be prolonged, and the flow guide device or the second crushing piece is prevented from being damaged due to large impact caused by overhigh rotating speed.

Further, arrange the cup still including assemble in the power supply, the power of bowl cover and expose in the button of bowl cover, move the bistrique assemble in the power supply, the power be used for the power supply provides the electric energy, the button is used for controlling the power supply.

In some embodiments, the food processing cup of the above technical scheme further includes a power source assembled to the cup cover, a power source, and a key exposed out of the cup cover, wherein the power source can ensure normal operation of the second crushing member; the second crushing member can be conveniently operated by the key.

Further, the guiding device comprises a first guiding device and a second guiding device extending to one side from the first guiding device, and the second crushing piece comprises a shaft part assembled on the second guiding device and a knife part assembled on the shaft part.

In some embodiments, the second crushing member of the above technical solution includes a shaft portion assembled to the second deflector and a knife portion assembled to the shaft portion, and the knife portion can further stir and crush the food material entering the deflector cavity.

Further, arrange the cup and still include power supply and power, the axial region equipment in the power supply, the power is used for the power supply provides the electric energy.

In some embodiments, above-mentioned technical scheme arrange the cup and still include power supply and power, the axial part assemble in the power supply, the power is used for the power supply provides the electric energy, the normal work of second crushing piece can be ensured to the power supply.

Further, the power supply assembly in the second guiding device, the cooking cup still includes the receiver for receiving the instruction in order to control the power supply.

In some embodiments, the power supply of above-mentioned technical scheme is assembled in the second guiding device, arrange the cup and still include the receiver for receive the instruction in order to control the power supply, need not manual operation, use convenience more.

Further, the cooking cup comprises a filtering device, and the filtering device is located below the knife part.

In some embodiments, the cooking cup of the above technical solution comprises a filtering device, the filtering device is located below the knife portion and can filter food juice residues.

The embodiment of this application still provides a cooking machine, including host computer and foretell cooking cup, the host computer includes the motor, the motor is used for the drive first rubbing crusher rotates.

Further, the cooking cup is detachably assembled to the main machine.

In some embodiments, above-mentioned technical scheme's cooking cup detachably assemble in the host computer conveniently washs cooking cup.

Further, the motor includes a motor shaft to which the first shredder is assembled.

In some embodiments, the motor of the above technical solution includes a motor shaft, and the first crushing member is assembled on the motor shaft, so that an upper clutch and a lower clutch are omitted, thereby saving cost and increasing the rotation speed of the first crushing member; moreover, an upper clutch and a lower clutch are omitted, noise caused by friction of the upper clutch and the lower clutch is reduced, and noise generated when the food processor works is reduced.

Drawings

Fig. 1 is a schematic view of a food processor according to a first embodiment of the present application.

Fig. 2 is a schematic view of a cooking cup of the cooking machine shown in fig. 1.

Fig. 3 is an exploded view of the cooking cup of fig. 1, wherein the lid assembly is not shown.

Fig. 4 is a schematic view of the lid assembly of the cooking cup shown in fig. 2.

Fig. 5 is a schematic view of the mounting member of the cooking cup shown in fig. 3.

Fig. 6 is a schematic cross-sectional view of the cooking cup shown in fig. 2.

Fig. 7 is an enlarged view of a circled portion a of the cross-sectional view shown in fig. 6.

Fig. 8 is an enlarged view of a circled portion B of the cross-sectional view shown in fig. 6.

Fig. 9 is a schematic cross-sectional view of a cooking cup according to a second embodiment of the present application.

Fig. 10 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 9.

Fig. 11 is a schematic cross-sectional view of a third embodiment of the food processing cup of the present application.

Fig. 12 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 11.

Fig. 13 is a schematic cross-sectional view of a food processing cup according to a fourth embodiment of the present application.

Fig. 14 is an enlarged view of the circled portion of the cross-sectional view shown in fig. 13.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. "plurality" or "a number" means two or more. Unless otherwise indicated, "front", "rear", "lower" and/or "upper" and the like are for convenience of description and are not limited to one position or one spatial orientation. The word "comprising" or "comprises", and the like, means that the element or item listed as preceding "comprising" or "includes" covers the element or item listed as following "comprising" or "includes" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1 to 2, in the first embodiment, the food processor of the embodiment of the present application may be a soymilk maker, a juice extractor, a wall breaking machine, or the like. The cooking machine comprises a host machine 1 and a cooking cup 2 detachably assembled on the host machine 1. Cooking cup 2 includes cup body assembly 20 and detachably equipment in cup body assembly 20's bowl cover assembly 21. The main unit 1 includes a housing 10, a motor (not shown) located in a space surrounded by the housing 10, and a lower clutch (not shown) assembled to the motor.

Referring to fig. 3 to 8, in the first embodiment, the cup assembly 20 includes a cup 201, a handle 202 connected to the cup 201, a cup holder 203 assembled to the cup 201, a cutter disc assembly 204 assembled to the cup holder 203, a rotating shaft 205 assembled to the cutter disc assembly 204, a first crushing member 206 and an upper clutch (not shown) assembled to the rotating shaft 205, and a blocking member 208 and a mounting member 209 assembled to the cup 201. The cap assembly 21 includes a cap 210, a second mounting member 211 assembled to the cap 210, a second crusher 212 assembled to the second mounting member 211, and a deflector 213 connected to the second crusher 212. In the illustrated embodiment, the first disintegrating elements 206 comprise stirring blades, and in other embodiments, the first disintegrating elements 206 may further comprise a grinding assembly or other device having a disintegrating function.

Referring to FIG. 7, the second mounting member 211 includes a top wall 2110 and a side wall 2111 extending from the top wall 2110. The second reducing member 212 is assembled to the top wall 2110. The side wall 2111 is fixed to the cap 210. Cap assembly 21 also includes a bearing 219 that is assembled to second reducing element 212. The bearing 219 is located in the space defined by the top wall 2110 and the side wall 2111. The second grinding member 212 includes a movable grinding head 2120 and a stationary grinding head 2121. The movable grinding stones 2120 are assembled to the top wall 2110. The movable grinding head 2120 may rotate relative to the stationary grinding head 2121 to grind the food material. At least part of the movable grinding head 2120 is located in a space surrounded by the static grinding head 2121, and the movable grinding head 2120 and the static grinding head 2121 are matched through tooth parts to grind food materials.

The deflector 213 includes side walls 2130. The side walls 2130 enclose a flow guide cavity 2131. The static grinding head 2121 is assembled into the flow guide cavity 2131 and is located at the top of the flow guide cavity 2131. The static grinding head 2121 can be plugged into the flow guide cavity 2131, so that the static grinding head 2121 can be conveniently taken out of the flow guide cavity 2131, and cleaning and replacement are convenient; the static grinding head 2121 may also be fixed to the deflector 213. The static grinding head 2121 can also be positioned outside the mouth of the flow guide cavity 2131.

Referring to fig. 5 and 8, the mounting member 209 includes a limiting portion 2091 and a blocking portion 2092 extending downward from the limiting portion 2091. The limiting portion 2091 is in a shape of a closed ring. The bottom end of the flow guiding device 213 is inserted into a space surrounded by the limiting part 2091 to limit the flow guiding device 213.

The blocking member 208 is located below the limiting portion 2091. The bottom end of the deflector 213 abuts against the stopper 208 to limit the assembling position of the deflector 213. The diversion device 213 can be pulled out from the space enclosed by the limit part 2091, so as to facilitate cleaning of the diversion device 213. The bottom end of the blocking portion 2092 is provided with an arc-shaped abutting portion 20920. The abutting portion 20920 abuts against the arc-shaped inner surface of the cutter head assembly 204, so that the food material is abutted by the blocking portion 2092 as much as possible, and can enter the diversion cavity 2131 to be further ground or beaten. The blocking portion 2092 is located at the front side of the baffle chamber 2131 in the rotation direction of the first pulverizing member 206 to block the fluid. When the first crushing member 206 rotates, the fluid is driven to move, and the fluid is blocked by the blocking portion 2092 and is impacted upwards, so as to enter the flow guide cavity 2131.

In other embodiments, the deflector 213 may also be fixed to the mounting member 209 or the wall of the cup 201, for example, by welding, and when the lid 210 is removed from the cup 201, the second pulverizing element 212 is pulled out of the deflector chamber 2131 of the deflector 213.

In other embodiments, the mounting member 209 may also be secured to the cutterhead assembly 204, such as by welding or the like.

In other embodiments, the mounting member 209 can be configured to eliminate a stop 2092 that is disposed on the deflector 213 and can also function as a fluid stop, for example, extending downward from the sidewall 2130.

In other embodiments, the mounting member 209 may also have an arc shape, and the diversion device 213 is limited by the wall of the cup 201 or the diversion device 213 is fixed to the mounting member 209, and the bottom end of the diversion device 213 is higher than the bottom end of the mounting member 209, so that the mounting member 209 can block fluid, and the food material can enter the diversion cavity 2131.

The position of the flow guide cavity 2131 is higher than the top end of the first crushing member 206, so that when the first crushing member 206 rotates, fluid can enter the flow guide cavity 2131 and can drive the movable grinding head 2120 to rotate so as to grind food materials, and the food materials are further ground by the second crushing member 212, so that the grinding effect of the food materials is improved; the motor of the main body 1 drives only the first crushing member 206 to rotate, reducing noise.

The power of the motor is more than or equal to 5w and less than or equal to 50w, and the noise is effectively reduced. The rotating speed of the first crushing element 206 is greater than or equal to 1000r/min and less than or equal to 40000r/min, so that the fluid is ensured to have enough impact force and can enter the flow guide cavity 2131 and drive the second crushing element 212 to work so as to grind or stir the food material. Preferably, the rotation speed of the first crushing member 206 is not less than 2000r/min and not more than 20000 r/min.

The rotating speed of the movable grinding head 2120 is greater than or equal to 20r/min and less than or equal to 500r/min, so that food materials can be effectively ground or beaten, the service lives of the flow guide device 213 and the second crushing piece 212 can be prolonged, and the flow guide device 213 or the second crushing piece 212 is prevented from being damaged due to large impact caused by overhigh rotating speed. Preferably, the rotation speed of the second crushing member 212 is greater than or equal to 100r/min and less than or equal to 200 r/min.

The distance h1 between the diversion cavity 2131 and the first smashing piece 206 is less than or equal to 160mm, so that the fluid can rapidly enter the diversion cavity 2131 and has better impact force, and the second smashing piece 212 can be driven to work to grind or stir the food material. Preferably, the distance h1 between the baffle chamber 2131 and the first crushing member 206 is greater than or equal to 10mm and less than or equal to 60 mm.

When the cooking machine is used, when the cooking cup 2 is assembled in the main machine 1, the lower clutch of the main machine 1 is matched with the upper clutch of the cooking cup 2, so that the motor can drive the rotating shaft 205 to rotate, the first crushing piece 206 is driven to rotate, and the food material is beaten. In another embodiment, a motor shaft of the motor can penetrate through the cutter head assembly 204 and then be assembled and fixed with the first crushing member 206, so that the rotating shaft is omitted, and the cost is saved; meanwhile, the lower clutch and the upper clutch are omitted, the structure is simple, the cost is saved, and the transmission efficiency is improved; simultaneously, the noise that produces between clutch and the last clutch has been avoided down, has reduced the noise of cooking machine.

Referring to fig. 9 to 10, the second embodiment differs from the first embodiment in that: the cap assembly 21 may further include a power source 214, a power source 215, a circuit board 216, and a button 217 assembled to the cap 210. The second reducing member 212 is connected to the power source 214. The power source 214 may be a motor or the like to drive the movable grinding head 2120 of the second grinding member 212 to rotate so as to grind the food material. Because the rotational speed of second reducing component 212 is lower, the power of power source 214 is also less relatively, can reduce the noise of cooking machine during operation. The power source 214, the power source 215, and the button 217 are connected to the circuit board 216. The power source 215 provides power to the power source 214. The button 217 is exposed out of the cap 210 to control the start and stop of the power source 214 to control the operation of the second pulverizing element 212. The power source 214 is provided to ensure the grinding operation of the second grinding member 212 and to control the rotational speed of the moving grinding stones 2120 to control the fineness of the grinding. Other structures that are not described in detail can be seen from the above first embodiment, and are not described in detail herein.

Referring to fig. 11 to 12, in the third embodiment, the second pulverization element 212 includes a shaft portion 2125 and a blade portion 2122 assembled to the shaft portion 2125. The fluid entering the diversion cavity 2131 drives the blade 2122 to rotate, so as to further whip the food material. The rotating speed of the blade part 2122 is greater than or equal to 20r/min and less than or equal to 500r/min, so that the food material can be effectively ground or beaten, the service lives of the flow guide device 213 and the second crushing piece 212 can be prolonged, and the flow guide device 213 or the second crushing piece 212 is prevented from being damaged due to large impact caused by overhigh rotating speed. Preferably, the rotation speed of the second crushing member 212 is greater than or equal to 100r/min and less than or equal to 200 r/min. The deflector 213 includes a first deflector 2133 and a second deflector 2134 extending sideward from the first deflector 2133. The second flow guide 2134 is perpendicular to the first flow guide 2133. The shaft portion 2125 is rotatably limited to the second flow guiding device 2134. The food cup 2 includes a bearing 219 attached to the second deflector 2134, and the shaft portion 2125 is attached to the bearing 219. The cooking cup 2 further comprises a filtering device 2135 arranged on the second flow guiding device 2134. The filtering device 2135 is located below the blade portion 2122 to filter the food juice residue. The filtering device 2135 may be a juice filtering hole provided in the second flow guiding device 2134, or a filtering net provided in the second flow guiding device 2134 to filter juice residues. Other structures that are not described in detail can be seen from the above first embodiment, and are not described in detail herein.

Referring to fig. 13 to 14, the fourth embodiment differs from the third embodiment in that: the food processing cup 2 further comprises a power source 214, a power source 215, a circuit board 216 and a receiver 218 which are assembled on the second deflector 2134. The shaft portion 2125 is connected to the power source 214, and the power source 214 drives the blade portion 2122 to rotate so as to whip the food material. The power source 214 may be a motor or the like to drive the blade portion 2122 to rotate so as to whip the food material. Because the rotational speed of second reducing component 212 is lower, the power of power source 214 is also less relatively, can reduce the noise of cooking machine during operation. The power source 214 and the power source 215 are connected to the circuit board 216. The power source 215 provides power to the power source 214. The receiver 218 receives the command from the host 1 to control the power source 214 to start or stop without manual operation, thereby increasing the convenience of use. The power source 214 is provided to ensure the whipping operation of the blade portion 2122 and to control the rotation speed of the blade portion 2122 to control the fineness of the food pulverization. Other structures that are not described in detail may be found in the third embodiment, and are not described in detail herein. In other embodiments, the power source 214 may also be disposed on the cap 210.

The food processer of this application embodiment includes cup 201, first crushing piece 206, second crushing piece 212 and guiding device 213, guiding device 213 is located in the space that cup 201 encloses, guiding device 213 encloses into water conservancy diversion chamber 2131, second crushing piece 212 is located outside the oral area in water conservancy diversion chamber or at least part is located in water conservancy diversion chamber 2131, first crushing piece 206 can drive when being set up to rotate and eat the material and get into water conservancy diversion chamber 2131, and second crushing piece 212 is set up to the material that can further smash the entering water conservancy diversion chamber for the food processer has the crushing effect of preferred.

Although the present application has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the application, and all changes, substitutions and alterations that fall within the spirit and scope of the application are to be understood as being covered by the following claims.

Claims (26)

1. The utility model provides a cooking cup, its characterized in that includes cup (201), first crushing piece (206), second crushing piece (212) and guiding device (213), guiding device (213) are located the space that cup (201) enclose, guiding device (213) enclose into water conservancy diversion chamber (2131), and first crushing piece (206) can drive when being set up to rotate and eat material and get into water conservancy diversion chamber (2131), and second crushing piece (212) are set up to the edible material that can further smash and flow out from water conservancy diversion chamber (2131).

2. The cooking cup according to claim 1, wherein the baffle cavity (2131) is located above the first grating piece (206).

3. The food processing cup according to claim 2, wherein the distance between the baffle cavity (2131) and the first smashing piece (206) is less than or equal to 160 mm.

4. The food processing cup according to claim 3, wherein the distance between the baffle cavity (2131) and the first smashing piece (206) is greater than or equal to 10mm and less than or equal to 60 mm.

5. The cooking cup according to claim 1, comprising a mounting member (209), wherein the cooking cup comprises a cup seat (203) assembled on the cup body (201) and a cutter head assembly (204) assembled on the cup seat (203), the mounting member (209) is fixed on the cutter head assembly (204), and the mounting member (209) is used for limiting the flow guide device (213).

6. The cooking cup according to claim 1, comprising a mounting member (209), wherein the mounting member (209) is fixed on the cup body (201), and the mounting member (209) is used for limiting the flow guide device (213).

7. The food cup according to claim 6, wherein the mounting member (209) comprises a limiting portion (2091), and one end of the diversion device (213) is assembled into a space surrounded by the limiting portion (2091) or one end of the diversion device (213) is assembled into a space surrounded by the limiting portion (2091) and the cup body (201).

8. The cooking cup according to claim 7, wherein the diversion device (213) is fixed to the limiting part (2091).

9. The cooking cup according to claim 7, wherein the mounting member (209) comprises a blocking portion (2092) extending downward from a limiting portion (2091), and the first comminuting member (206) comprises a comminuting blade, the blocking portion (2092) being located in front of the baffle cavity (2131) in a rotational direction of the comminuting blade.

10. The food cup as claimed in claim 9, wherein the food cup comprises a cup seat (203) assembled to the cup body (201) and a cutter head assembly (204) assembled to the cup seat (203), and the blocking portion (2092) abuts against the cutter head assembly (204).

11. The cooking cup according to claim 10, wherein the blocking portion (2092) comprises an abutment portion (20920), the abutment portion (20920) being arcuate.

12. The cooking cup according to claim 6, comprising a blocking member (208), wherein the deflector (213) is crimped to the blocking member (208).

13. The cooking cup according to claim 1, wherein the deflector (213) is fixed to a wall of the cup body (201).

14. The food processing cup according to claim 1, wherein the first smashing piece (206) comprises a stirring knife, and the rotation speed of the stirring knife is greater than or equal to 1000r/min and less than or equal to 40000 r/min.

15. The food processing cup according to claim 14, wherein the rotation speed of the stirring knife is not less than 2000r/min and not more than 20000 r/min.

16. The food cup according to any one of claims 1 to 15, wherein the second grinding member (212) comprises a static grinding head (2121) and a dynamic grinding head (2120), the static grinding head (2121) is at least partially assembled into the flow guide cavity (2131), the food cup comprises a cup cover (210) assembled to the cup body (201), and the dynamic grinding head (2120) is assembled to the cup cover (210).

17. The food processing cup according to claim 16, wherein the rotating speed of the movable grinding head (2120) is greater than or equal to 20r/min and less than or equal to 500 r/min.

18. The food processing cup according to claim 17, wherein the rotating speed of the movable grinding head (2120) is greater than or equal to 100r/min and less than or equal to 200 r/min.

19. The food processing cup according to claim 16, further comprising a power source (214) assembled to the cup cover (210), a power source (215), and a button (217) exposed from the cup cover (210), wherein the movable grinding head (2120) is assembled to the power source (214), the power source (215) is used for providing electric energy for the power source (214), and the button (217) is used for controlling the power source (214).

20. The food cup as claimed in any one of claims 1 to 15, wherein the deflector (213) comprises a first deflector (2133) and a second deflector (2134) extending to one side from the first deflector (2133), and the second smashing element (212) comprises a shaft part (2125) assembled to the second deflector (2134) and a knife part (2122) assembled to the shaft part (2125).

21. The food cup as claimed in claim 20, further comprising a power source (214) and a power source (215), wherein the knife portion (2122) is assembled to the power source (214), and the power source (215) is used for providing electric energy to the power source (214).

22. The processing cup according to claim 21, wherein the power source (214) is assembled to the second deflector (2134), the processing cup further comprising a receiver (218) for receiving instructions to control the power source (214).

23. The cooking cup according to claim 20, comprising a filter device (2135), wherein the filter device (2135) is located below the knife portion (2122).

24. A food processor, comprising a main machine (1) and the food processing cup of any one of claims 1 to 23, wherein the main machine (1) comprises a motor for driving the first crushing member (206) to rotate.

25. The food processor of claim 24, wherein the food cup is detachably assembled to the main machine (1).

26. The food processor of claim 24, wherein the motor comprises a motor shaft, the first grater (206) being assembled to the motor shaft.

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